常氧和低氧条件下吸气肌负荷时的膈肌疲劳
Diaphragmatic fatigue during inspiratory muscle loading in normoxia and hypoxia.
作者信息
Walker David Johannes, Farquharson Franziska, Klenze Hannes, Walterspacher Stephan, Storz Lucia, Duerschmied Daniel, Roecker Kai, Kabitz Hans-Joachim
机构信息
Department of Pneumology and Intensive Care Medicine, Academic Teaching Hospital Klinikum Konstanz, Germany; Department of Pneumology, University Hospital Freiburg, Germany.
Department of Pneumology and Intensive Care Medicine, Academic Teaching Hospital Klinikum Konstanz, Germany; Department of Pneumology, University Hospital Freiburg, Germany.
出版信息
Respir Physiol Neurobiol. 2016 Jun 15;227:1-8. doi: 10.1016/j.resp.2016.01.006. Epub 2016 Feb 1.
INTRODUCTION
Diaphragmatic fatigue (DF) occurs during strenuous loading of respiratory muscles (e.g., heavy-intensity whole-body exercise, normocapnic hyperpnea, inspiratory resistive breathing). DF develops early on during normoxia, without further decline toward task failure; however, its progression during inspiratory muscle loading in during hypoxia remains unclear. Therefore, the present study used volume-corrected transdiaphragmatic pressures during supramaximal magnetic phrenic nerve stimulation (Pdi,twc) to investigate the effect of hypoxia on the progression of diaphragmatic fatigue during inspiratory muscle loading.
METHODS
Seventeen subjects completed two standardized rounds of inspiratory muscle loading (blinded, randomized) under the following conditions: (i) normoxia, and (ii) normobaric hypoxia (SpO2 80%), with Pdi,twc assessment every 45 s.
RESULTS
In fatiguers (i.e., Pdi,twc reduction >10%, n=10), biometric approximation during normoxia is best represented by Pdi,twc=4.06+0.83 exp(-0.19 × x), in contrast to Pdi,twc=4.38-(0.05 × x) during hypoxia.
CONCLUSION
Progression of diaphragmatic fatigue during inspiratory muscle loading assessed by Pdi,tw differs between normoxia and normobaric hypoxia: in the former, Pdi,tw follows an exponential decay, whereas during hypoxia, Pdi,tw follows a linear decline.
引言
膈肌疲劳(DF)发生在呼吸肌剧烈负荷期间(例如,高强度全身运动、正常碳酸血症性通气过度、吸气阻力呼吸)。在常氧条件下,膈肌疲劳在早期就会出现,且不会随着任务失败而进一步下降;然而,其在低氧条件下吸气肌负荷期间的进展仍不清楚。因此,本研究使用超最大膈神经刺激期间经膈肌压力的容积校正值(Pdi,twc)来研究低氧对吸气肌负荷期间膈肌疲劳进展的影响。
方法
17名受试者在以下条件下完成了两轮标准化的吸气肌负荷试验(双盲、随机):(i)常氧,以及(ii)常压低氧(SpO2 80%),每45秒评估一次Pdi,twc。
结果
在疲劳者中(即Pdi,twc降低>10%,n = 10),常氧期间的生物统计学近似值最佳表示为Pdi,twc = 4.06 + 0.83 exp(-0.19 × x),而低氧期间为Pdi,twc = 4.38 - (0.05 × x)。
结论
通过Pdi,tw评估的吸气肌负荷期间膈肌疲劳的进展在常氧和常压低氧之间有所不同:在前者中,Pdi,tw呈指数衰减,而在低氧期间,Pdi,tw呈线性下降。
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